Infantile cortical hyperostosis (ICH, OMIM 114000) is a rare familial disorder which affects infants. It spontaneously heals in the first years of life. The disease is characterized by regressive subperiosteal hyperosteogenesis mainly affecting long bones, mandible, clavicles, and ribs which are remarkably swollen and deformed on X-rays. But it is also important to take into consideration the autosomal dominant pattern of inheritance to detect it. In 2005 Gensure et al. detected 3040C→T mutation in COL1A1 gene in three unrelated ICH families. Four generations of patients belonging to the same family were examined in our study. Molecular testing has now disclosed a pathogenic mutation in nine of them. The patients spontaneously recovered. Although our paper shows a distinct correlation between R836C mutation and ICH, there is a certain interindividual and intra-familial variability.
Introduction
Infantile cortical hyperostosis (ICH, OMIM 114000) was first reported by Roske [26] and subsequently studied by De Toni who recognized the congenital and regressive aspects of this disorder [13, 14]. Caffey and Silverman [9] and Caffey [8] formally defined ICH, which is a neonatal and infantile familial disease, spontaneously healing in the first years of life. The disease is characterized by regressive subperiosteal hyperosteogenesis mainly affecting the long bones, mandible, clavicles, and ribs, which are remarkably swollen and deformed on X-ray. The presence of fever, inflammatory signs, and pain led clinicians to suspect different disorders, in particular those caused by infectious agents [2, 22, 25, 30]. Familial clustering has been reported by several authors who also outlined the autosomal dominant pattern of inheritance and a possible reduced penetrance [1, 4, 6, 10, 15, 17, 19, 20, 23, 24, 27, 31].
A genome-wide analysis in three unrelated ICH families allowed Gensure et al. [18] to map the disease locus on chromosome 17q21. All affected individuals were found to be heterozygous for a missense mutation (3040C→T) in the COL1A1 that altered residue 836 (R836C). Suphapeetiporn et al. [29] and Cho et al. [11] corroborated these results by confirming the same mutation in a Thai ICH family and a Korean one.
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In the present paper, we report the molecular analysis of the COL1A1 gene in four generations of an ICH Italian family.
Materials and methods
Patients
The affected individuals belong to an Italian Piëmontees family in which ICH has occurred for at least four generations (Figs. 1 and 2). Three of the nine investigated patients were diagnosed in 1969 [15] and one in 1979 [10]. They were reevaluated during this study together with five new patients (IV-11, VI-11, V-3, VII-2, and VII-3). The relevant features of the nine patients are summarized in Table 1.
Table 1
Clinical and radiological features of nine patients with R836C COL1A1 mutation
Clinical features
VI-2
VII-2
V-2
VI-4
VII-3
V-5
IV-11
VI-11
V-3
Sex
F
M
M
F
M
M
M
M
M
Weight at birth (g)
2,750
3,300
/
2,950
3,200
3,750
/
4,300
/
Onset of ICH (days)
14
60
15
60
10
20
/
−
/
Swelling
Tibia
+
+
+
+
+
+
/
−
/
Ulna
+
+
−
+
+
+
/
−
/
Radius
+
+
−
+
+
+
/
−
/
Femur
+
−
−
−
−
+
/
−
/
Mandible
+
+
−
−
−
−
/
−
/
Fibula
−
+
+
+
+
−
/
−
/
Humerus
−
−
−
+
−
+
/
−
/
Clavicle
−
−
−
−
−
+
/
−
/
Walking unsupported (months)
20
16
20
13
17
20
/
12
/
Clinical improvement, age (months)
36
24
/
12
12
4
/
−
/
Clinical recovery (years)
7
/
12
5
2
3
/
−
/
Age at reevaluation (years)
42
2
68
31
5
55
83
22
71
Height (cm)
156
85
168
166
114
182
175
190
165
F female, M male, + presence of clinical sign, − absence of clinical sign, / no data available
×
×
In these nine patients and in five asymptomatic family members (VII-1, VI-5, VI-7, VI-9, and VI-10), mutation analysis of COL1A1 was performed. Molecular testing was also performed in a subject (V-1) who was distantly related to her affected husband.
Informed consent was obtained for all patients. Publication of the material included in this work has been authorized in accordance with the terms of the Italian privacy law 196/03.
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Methods
DNA extraction and quantification
gDNA was isolated from 300 μl of a peripheral whole-blood sample using PureGene DNA isolation kit according to the manufacturer's instructions (Gentra Systems, Minneapolis, USA). Accurate quantification of obtained gDNA was made by fluorimetric method (Qubit fluorometer; Invitrogen; Carlsbad, USA).
PCR amplification
Amplification of exon 41 of COL1A1 gene was carried out, using specific intronic primers in a 25-μl final volume with 50 ng of gDNA, 250 nM of each primer, 200 μM of each dNTP, 1.5 mM MgCl2, Rxn Buffer, and 1.25 U of Platinum® Taq DNA Polymerase.
A commercial kit (Invitrogen, Carlsbad, USA) was used for Taq, buffer, MgCl2, and dNTPs.
PCR product purification and sequence analysis
The amplified fragment was purified by a selective DNA/silica membrane binding reaction carried out on a column support (Illustra GFX PCR DNA and gel band purification kit; GE Healthcare, Buckinghamshire, UK), and 50 fmol of the same PCR product was used for the dye terminator cycle sequencing reaction with the CEQ DTCS Quick Start Kit (Beckman Coulter, Fullerton, USA) according to the manufacturer's protocol. The sequencing reaction product was purified and analyzed with a capillary electrophoresis sequencer (CEQ 8800; Beckman Coulter, Fullerton, USA). Two different PCR reactions were made and sequenced for each patient to exclude that heterozygotes were due to rare spontaneous polymerization errors of Taq activity.
Results
Mutation analysis of COL1A1 gene (Fig. 3) was performed in 15 subjects. Nine of them (VI-1, VII-2, V-2, VI-4, VII-3, V-5, IV-11, V-3, and VI-11) were found to have a heterozygous Arg836Cys mutation. The onset of the disease began between the first 10 and 60 days of life. Six patients showed evident clinical features of ICH. In particular the following bones were affected: tibial swelling occurred in six patients, ulnar and radial in four, femoral in three, fibular in three, mandibular in two, humeral in two, and clavicular in one (Table 1). For subjects IV-11 and V-3, aged 83 and 71 years respectively, there were no records of any ICH symptoms in the neonatal and infant age although the former is an obligate carrier.
×
Patient VI-11 is a heterozygous asymptomatic individual. Subjects VII-1, VI-5, VI-7, VI-9, VI-10, and V-1 had a wild-type COL1A1 genotype.
Discussion
The detection of the COL1A1 gene mutation in individuals affected by ICH [18] has shown the molecular make up of this disorder inherited as an autosomal dominant trait, which manifests itself in the first months and years of life and results in early spontaneous recovery. In this study we carried out mutational analysis in 15 subjects of the same family and found heterozygous missense mutation in exon 41 (3040C→T, R836C) in 9 of them.
There have been disagreements on the management of ICH individuals, and the use of corticosteroid therapy has been proposed [7, 12, 16]. However, this therapy was not beneficial in our first patient (VI-1) and after 1 month it was stopped. All the other ICH individuals in the same family were not treated and reached a spontaneous full recovery.
Our study confirms that individuals heterozygous for R836C mutation have a distinct clinical disorder in agreement with the findings of Gensure et al. [18] and Suphapeetiporn et al. [29]. Allelic COL1A1 mutations have been reported in association with Ehlers–Danlos syndrome and osteogenesis imperfecta. None of the known individuals with R836C mutation had clinical or radiographic features consistent with these two diseases (joint hyperlaxity, hyperexstensibility skin, gray-blue sclerae, dentinogenesis imperfecta, premature hearing loss, short stature, deformities, and scoliosis).
There has been some disagreement about the persistence of ICH features in adulthood. A few individuals investigated in the first studies of this disorder were described as having persisting deformities throughout adolescence and adulthood [3, 5, 9]. More recently, Suphapeetiporn et al. [29] have reported two ICH individuals aged 50 and 75 years, with proved COL1A1 mutation, showing persisting deformities of the long bones. The adult mutated individuals studied by Gensure et al. [18] had no skeletal deformation while this was reported for the Thai mutated patients [29]. All our mutated adult individuals reached the target height (Table 1) and at present, they show no persisting ICH symptoms. In four of them, recovery took place between the third and the twelfth years of age. No new X-ray analysis was considered necessary.
Barba and Freriks [1] radiographically reported lesions in the long bones during the last month of gestation in two fetuses that exhibited ICH postnatally and suggested a possible autosomal recessive pattern of inheritance. Other studies have argued that the prenatal onset of ICH should be regarded as a distinct disorder [27]. Schweiger et al. [28] reported 43 cases with prenatal onset of ICH and showed that those born before 35 weeks of gestation had a poor prognosis (possible autosomal recessive inheritance) compared to those born after 35 weeks, who were shown to have an autosomal dominant mutation. It has been suggested that early onset of fetus ICH is usually lethal because of massive hepatic myeloid hyperplasia resulting in enlarged liver, ascites, anasarca, and pulmonary hypoplasia [32]. However, mutational analysis of COL1A1 gene in two fetuses manifesting ICH characteristics disclosed a wild genotype [18]. Kamoun-Goldrat et al. [21] reported an ICH fetus terminated at 30 weeks after a diagnosis of severe osteogenesis imperfecta. A postmortem test confirmed ICH. No patient in our family developed any prenatal ICH symptom.
In conclusion, the mutational origins of this disease are important in making a correct diagnosis and ensuring ICH patients are given the right treatment. Available data point to a wide clinical variability among individuals with R836C mutation. Different outcomes have been observed in a minority of these patients in agreement with the interindividual and intra-familial variability to be expected for an autosomal dominant disorder.
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Acknowledgments
We are grateful to the families for their cooperation and availability. The authors wish to thank Fondazione Cassa di Risparmio di Vercelli for the support and Dr. Michela Godi, Dr. Vanessa Arcuri, and the families for their collaboration.
Open Access
This article is distributed under the terms of the Creative Commons Attribution Noncommercial License which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
Open AccessThis is an open access article distributed under the terms of the Creative Commons Attribution Noncommercial License (https://creativecommons.org/licenses/by-nc/2.0), which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
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